首页|Insights into the substitutional chemistry of La_(1-x)SrxCo_(1-y)MyO3(M = Pd,Ru,Rh,and Pt)probed by in situ DRIFTS and DFT analysis of CO oxidation
Insights into the substitutional chemistry of La_(1-x)SrxCo_(1-y)MyO3(M = Pd,Ru,Rh,and Pt)probed by in situ DRIFTS and DFT analysis of CO oxidation
扫码查看
点击上方二维码区域,可以放大扫码查看
原文链接
NSTL
We report the detailed surface chemistry of platinum,palladium,rhodium,and ruthenium substituted into lanthanum strontium cobaltate perovskite catalysts toward CO oxidation.The catalysts were synthesized by the solution combustion method and characterized in detailed using a series of techniques.To explore the effect of noble metal ion substitution on CO oxidation,surface intermediates were probed by operando diffuse reflectance infrared Fourier transform spectroscopy.It was recognized that La_(1-x)SrxCo_(1-y)MyO3 and La_(1-x)SrxCo_(1-y)MyO3 show the best activities for the reaction.DFT calculations were set up to unravel the details of the surface phenomena responsible for altering the CO oxidation activity upon noble metal ion substitution.The computational analysis conclusively demonstrated the experimentally hypothesized role of surface carbonate formation and revealed the altered mechanism for CO oxidation over the synthesized perovskites upon noble metal ion substitution.
PerovskitesCO oxidationOperando spectroscopyNoble metal ionsDensity functional theory
Pradeep Kumar Yadav、Saroj Kumari、Uppari Naveena
展开 >
Discipline of Chemistry,Indian Institute of Technology Gandhinagar,Gandhinagar 382355,India
Quantum and Molecular Engineering Laboratory,Department of Chemical Engineering,Indian Institute of Technology Kharagpur,Kharagpur 721302,India
NSTL
